AU2007232449B2

AU2007232449B2 - Apparatus and method for smoke removal

Info

Publication number: AU2007232449B2
Application number: AU2007232449A
Authority: AU
Inventors: Brian Hunt; Peter Row; Alex Wheatley
Original assignee: Atmosphere Control International Ltd
Current assignee: Atmosphere Control International Ltd
Priority date: 2006-03-31
Filing date: 2007-03-22
Publication date: 2010-12-02
Anticipated expiration: 2027-03-22
Also published as: US20090241776A1; AU2007232449A1; GB0606571D0; GB2436535B; WO2007113472A1; CA2648148C; US8277541B2; EP2002186A1; CA2648148A1; GB2436535A

Description

WO 2007/113472 PCT/GB2007/001027 APPARATUS AND METHOD FOR SMOKE REMOVAL This invention relates to smoke removal apparatus and an associated method for smoke removal. In particular, the 5 invention concerns the removal of smoke from a confined space without the necessity of ventilating the confined space to the atmosphere. Smoke is a visible suspension of gases and particles in air produced through combustion of a material, as a result 10 of a fire, for example. It is well-known that inhalation of smoke is dangerous to humans and can cause serious respiratory trouble, leading to death in some cases. The cause of death can be thermal damage, poisoning and/or pulmonary irritation. Both poisoning and pulmonary 15 irritation are often caused by toxins present in smoke. Generally speaking, a person subjected to smoke inhalation for a longer period will be more likely to be seriously injured. Further, smoke is still very dangerous long after a fire has been extinguished, especially in confined spaces. 20 Smoke can make seeing difficult and, when thick, obscures a person's view completely. This can lead to disorientation and increased danger. It is known that smoke forms layers such that thicker smoke tends to be located higher in a room and that the layers of smoke decrease in thickness towards 25 lower parts of the room. Typically, thicker smoke will be more visibility-reducing than less-thick smoke. Although with the use of respiratory apparatus a person can breath in a smoke filled space, thick smoke will likely prevent the person from carrying out anything but simple 30 tasks. Therefore, there is usually some delay before the clean up operation can start, following extinguishing of the fire, as the smoke must clear somewhat beforehand. Further, C \NRPorbl\DCC\AXL0(9091 I DOC.I010//20110 -2 rescuers, for example firemen, may be unaware of the existence of a casualty in the smoke-filled space, as the casualty cannot be located by sight. It is, therefore, clear that it is beneficial in those circumstances for a room to 5 be cleared of at least visibility-reducing smoke quickly. Unfortunately, following a fire in a confined space having no means of direct ventilation with the atmosphere (outside air), it can be very difficult to remove the smoke. Such a situation arises in marine vessels, for example ships 10 and submarines, and in buildings where any form of ventilation to the atmosphere would involve venting the confined space through other parts of the marine vessel or building. In the situation of a submarine, this is further complicated by the lack of openable hatches and, 15 additionally, these hatches often cannot be opened as they are underwater. At present, the only solution for removing smoke from a confined space (having no means of direct ventilation to the atmosphere) is to vent through other parts of the marine 20 vessel or building either by simply opening doors or hatches, or by using lengthy pipe work and an extractor-fan arrangement. This can effect the breathable environment throughout the rest of the building or marine vessel, which is particularly disadvantageous. Further, arranging lengthy 25 pipe work is very time consuming and increases the risk to humans from smoke, as the exposure time is longer. Smoke removal units and domestic air treatment units have previously been proposed to provide treated air. Smoke removal units have been proposed for use in 30 smoking rooms, for example. The units are permanently located in the smoking room in the region of the ceiling, WO 2007/113472 PCT/GB2007/001027 -3 typically. Smoke from cigarettes is drawn into the unit and subjected to mechanical and/or electrostatic filtration, as can be seen in the smoke removal units described in EP1481717-A. These units are only intended to deal with 5 cigarette smoke which contains very low, if any, amounts of large particles or floating debris. Owing to their position around the ceiling, it is very unlikely that large particles or floating debris - for example soot or non-fully combusted material - of the kind emitted by a full-scale fire will 10 reach the smoke removal unit on the ceiling, as a cigarette does not provide enough up-thrust to propel the large particles or floating debris that far. Further, although the units are intended for removing smoke from a room, the amount of smoke in the room would not be such that vision of 15 a person would not be substantially or totally obscured, in that, thick layers of visibility-reducing smoke do not typically occur. As such, smoke removal units, as described above, would neither cope with smoke from a fire nor are they intended to. 20 Domestic air treatment units are, typically, floor-mounted and intended to treat air to remove dust, smells and/or biological material to aid sufferers of asthma or other respiratory illnesses. To do that, mechanical and/or electrostatic filters may used to filter air and any 25 suspended contaminants. However, these units are not intended to deal with actual smoke of any kind, although, they may tackle the issue of the smell of smoke from cigarettes, for example. As such, these units would neither cope with smoke from a fire nor are they intended to. 30 Further, particles of a larger size or floating debris are likely to clog domestic air treatment units and smoke removal units as the filters provide a very high degree of C \NRPonb NDCAN\A10 X091 DOC-10/0M9/20110 -4 filtering for small particles and are, therefore, prone to clogging if particles - for example floating debris - of a much larger size than intended for that machine become entrained in the filters. 5 In addition, both domestic air treatment units and smoke removal units provide removal of smoke or treatment of air at temperatures of the smoke or air that are substantially at room temperature. The filters, in particular the mechanical filters, are simply not designed 10 to deal with smoke from a fire that may have a very high temperature when entering the unit, as aspects of the filters may melt. It will also be understood that smoke from a fire that has just recently been extinguished may contain a large 15 amount of water and/or water vapour. The water-vapour content of the smoke will be much higher than that of air at room temperature. Again, neither the smoke removal units nor the domestic air treatment units are designed to deal with high amounts of water and/or water vapour. 20 Therefore, there is a need for an apparatus and method which provide an improved way of removing smoke from a confined space, having no means of direct ventilation to the atmosphere. In particular, there is a need for an apparatus that substantially removes smoke from a confined space 25 quickly. Accordingly, in a first aspect, the present invention provides a smoke removal apparatus, capable of operating in a confined space without ventilation of the apparatus to the atmosphere to provide removal of smoke from air to be 30 treated, comprising one or more of the following filters: a mechanical filter; an electrostatic filter; and/or C WRohhC\A 10 I0 |DOC-1l/08201 -5 a chemical filter; wherein the apparatus is arranged to collect smoke from a relatively higher position, pass smoke through the one or more filters, and expel treated air to a relatively lower 5 position, wherein the apparatus is provided with an outlet arranged to provide radial distribution of treated air in all directions which are substantially horizontal to the ground, so as to provide a layer of treated air beneath the smoke. 10 Preferably, the apparatus is arranged to collect smoke to a substantially upper-region of the apparatus. Further preferably, the apparatus is arranged to collect smoke from substantially above the apparatus. Preferably, the apparatus is arranged to expel treated 15 air from a substantially lower-region of the apparatus. Further preferably, the apparatus is arranged to expel treated air to substantially below the apparatus. Advantageously, the apparatus may be provided with an outlet arranged to expel treated air in a direction 20 substantially perpendicular to smoke passing through the one or more filters. As a preference, smoke may be passed substantially downwardly through the one or more filters. The smoke removal apparatus may further comprise fan 25 means, arranged to collect smoke, pass it through the one or more filters and expel treated air from the apparatus. In particular, the fan means may comprise part of the outlet and, preferably, the fan means may comprise a centrifugal fan having a rotating outlet, which provides radial 30 distribution of treated air. Preferably, the apparatus comprises an inlet, located at a substantially upper-region of the apparatus and may WO 2007/113472 PCT/GB2007/001027 -6 further comprise an inlet flue operatively connected to the inlet that is suitable for providing a relatively higher inlet to the apparatus. Preferably, the inlet flue may be extendable to vary the height of the inlet. 5 The filters may be arranged in compartments, each compartment individually arranged to be easily removed for cleaning or replacement. Preferably, the mechanical filter comprises a course mesh. The mesh may be made of a material comprising 10 aluminium. The electrostatic filter may comprise an arrangement of an ionising wire and alternatively charged plates. The chemical filter may comprise activated carbon. Preferably, the chemical filter may further comprise alkali 15 salts or acid salts, for neutralisation of acidic or basic gaseous molecules. As such, the alkali salts may comprise soda lime. Preferably, the smoke removal apparatus is provided as a single unit. 20 Further preferably, the smoke removal apparatus is arranged to be floor-mounted. Most preferably, the smoke removal apparatus is arranged to be portable. In particular, the apparatus is arranged to treat air 25 which is polluted by smoke. As a consequence of the smoke, visibility through the air to be treated has been reduced and, following treatment, visibility through the treated air is improved. Advantageously, the apparatus is arranged to be used in 30 a room in a building or in a compartment onboard a marine vessel.

CANRPorhADCC\AXLun9(XO93 IDOC.I/,g/2u10 -7 Most preferably, the apparatus further comprises a portable power source. In a second aspect, the invention provides a method of smoke removal comprising, 5 providing a smoke removal apparatus, capable of operating in a confined space without ventilation of the apparatus to the atmosphere to provide removal of smoke from air to be treated, comprising one or more filters selected from a mechanical filter; an electrostatic filter; and/or a 10 chemical filter; wherein smoke is collected from a relatively higher position, is passed through the one or more filters and treated air is expelled to a relatively lower position, and wherein the apparatus is provided with an outlet arranged to 15 provide radial distribution of treated air in all directions which are substantially horizontal to the ground, so as to provide a layer of treated air beneath the smoke. Preferably, smoke is collected to a substantially upper-region of the apparatus. 20 Most preferably, smoke is collected from substantially above the apparatus. Preferably, treated air is expelled from a substantially lower-region of the apparatus. Most preferably, treated air is expelled to 25 substantially below the apparatus. The apparatus may be provided with an outlet which expels treated air in a direction substantially perpendicular to smoke passing through the one or more filters. 30 In particular, smoke may be passed substantially downwardly through the one or more filters from the C \N IobiX' A i ix9 I.DOC-10/IM2II0 -8 substantially upper-region of the apparatus to the substantially lower-region of the apparatus. Preferably, smoke may be collected and passed through the one or more filters, and treated air may be expelled by 5 way of fan means. Most preferably, smoke may be subjected to particulate filtration, then electrostatic filtration, then chemical filtration. Advantageously, during periods of inactivity of the 10 apparatus, the filters may be each individually easily removed for cleaning or replacement. Preferably, the smoke removal apparatus may be portable and may be transported to a site in need of smoke removal, and operated to provide treated air. 15 Most preferably, the smoke removal apparatus may be operated to treat air which is polluted by smoke to substantially remove smoke therefrom. As such, when smoke has reduced visibility, the apparatus may be operated to treat the smoke and provide improved visibility. 20 Advantageously, embodiments of the present invention provide for removal of smoke from a confined space. Most advantageously, embodiments of the present invention provide clearance of visibility-reducing smoke from a space, whether the space be confined or not. Further, clearance is carried 25 out quickly, so as to remove visibility-reducing smoke from a room or compartment in a matter of minutes, which allows removal of casualties for further clear-up operations to begin quicker than if the room or compartment was left to clear naturally. Further, the apparatus may be used 30 advantageously to aid clearance of smoke from a room which does have some form of ventilation to the atmosphere.

C:\NRilu~iDlkiCCwXLU0 i)9X OC0/ /201) - 8a Advantageously, positioning of the outlet at the bottom of the apparatus provides a layer of treated air beneath the WO 2007/113472 PCT/GB2007/001027 -9 smoke, such that treated air is not directly mixed with smoke. Further advantageously, providing the treated air radially from the outlet and, therefore, providing a layer 5 of treated air at or around ground level or at least below the smoke, mixing of treated air and smoke is minimised. As a consequence of minimising mixing, visibility in the room or compartment is restored more quickly. Therefore, turbulence between smoke and treated air is minimised and a 10 near-homogenous layer of treated air is provided below the layers of smoke. Further advantageously, a room or compartment is cleared of smoke by providing layers of treated air beneath the smoke which push upwards on the smoke which, at least 15 partly, pushes the smoke towards the inlet of the apparatus and/or towards upper parts of the room or compartment, from where it may be collected for filtering. Embodiments of the invention shall now be described by 20 way of example only, with reference to, or as shown in the accompanying drawings, in which: Figure 1 is a perspective view of the smoke removal apparatus of the present invention, shown from the front; 25 Figure 2 is a perspective view of the rear of the smoke removal apparatus of Figure 1, having the back removed; Figure 3 is view of the front and one side of the smoke removal apparatus of Figure 1, showing one of the filter compartments removed; 30 Figure 4 is a perspective view of the smoke removal apparatus of Figure 1, showing an attached inlet flue; WO 2007/113472 PCT/GB2007/001027 - 10 Figure 5A is a plan view of the outlet of the smoke removal apparatus of Figure 1; and Figure 5B is a side-view of the outlet of Figure 5A. 5 As shown in Figures 1 to 3, the smoke removal apparatus of the present invention is shown, in general, by reference 1. The apparatus 1 is provided with three filters in the forms of a mechanical filter 2, an electrostatic filter 3, and a chemical filter 4. The filters 2,3,4 are provided in 10 individual compartments and are each removable from the apparatus 1, by sliding them in or out in a draw-like manner, for cleaning or replacement thereof. Further, the apparatus is provided with an inlet 5 and an outlet 6 for smoke to enter or exit the apparatus 1. In the context of 15 the specific description, smoke is the air to be treated by the apparatus 1. The apparatus 1 is capable of operating in a confined space without ventilation of the apparatus to the atmosphere. The confined space may be any room in a 20 building or compartment onboard a marine vessel which contains smoke. The mechanical filter 2 is provided in a compartment towards the top 7 of the apparatus 1 and has an aluminium mesh filter consisting of several layers of corrugated, 25 aluminium mesh. The mechanical filter provides initial filtration of larger particles, say, particles having a second dimension greater than 1mm. As such, it will be understood that such a mechanical filter is a course filter intended to filter relatively larger particles, in 30 particular, floating debris and fly ash. It is preferred to filter these relatively larger particles as they may cause arching of electricity when entering the electrostatic WO 2007/113472 PCT/GB2007/001027 - 11 filter, which can disrupt the filtering achieved by that filter. This filter is arranged to provide quick filtering of smoke to remove a substantial amount of large particles and/or floating debris from the smoke prior to the smoke 5 passing through to the electrostatic filter. The nature of the mechanical filter - the aluminium mesh - is such that it can be easily removed from the apparatus 1 and cleaned to remove entrained particles. Therefore, the mechanical filter 2 is re-usable. Naturally, the filter may be made of 10 other suitable material, for example, other metals or any material capable of filtering the hot smoke without deforming or decomposing. The electrostatic filter 3 is provided in a further compartment located towards the middle 8 of the apparatus 1 15 and operates in a standard manner. It consists of an earthed casing - that may be part of the compartment - which holds a number of plates that alternate between OV (Volts) - earth - and around 4.8kV along the length. There is a rail at the top of the filter holding ionising wires. These 20 wires are charged at around 8kV. A substantial part of the smoke passing past these wires becomes charged and then sticks to the alternating plates, removing those particles from the smoke. The remaining smoke is then transferred to the chemical filter. The power for the electrostatic filter 25 3 is provided by a drive unit which is included in the body of the apparatus 1. This filter 3 is removable from the apparatus, cleanable and re-usable. Advantageously, arching of smoke on the plates and/or wires can be minimised by using a lower voltage on the plates and wires. 30 The chemical filter 4 consists of a compartment having a metal meshed top and bottom located towards the bottom 9 of the apparatus 1. The filter 4 includes one or more WO 2007/113472 PCT/GB2007/001027 - 12 layers of activated carbon, in the form of carbon cloth, and an amount of soda lime, which is provided in dry-state, for example, granules. Preferably, the carbon cloth and soda lime are separated by a metal mesh. The carbon cloth and 5 soda lime absorb part of the smoke left over from mechanical and electrostatic filtration and substantially remove - or at least substantially reduce - from the air, for example, any remaining toxic gases. The chemical filter may be used a number of times but is not infinitely re-usable, as its 10 operation is dependent upon the lifetime of effective operation of the soda lime and carbon - which cannot be simply cleaned to prolong use and must be replaced The inlet 5 is provided at the top 7 of the apparatus 1, as can be seen in Figures 1 and 2. Advantageously, 15 positioning the inlet 5 in this manner allows the apparatus 1 to initially draw air to be treated (smoke) from upper regions of a room or compartment - which is the likely location of the smoke. The drawn air is fed directly into the mechanical filter 2. In a further embodiment, as shown 20 in Figure 4 in particular, the apparatus 1 may be provided with an inlet flue 15 which is operatively connected to the inlet 5 of the apparatus 1, and provides an inlet to the apparatus 5' at the end of the inlet flue 15 remote from the apparatus 1. The inlet flue 15 may be extendable and can be 25 used to draw smoke from higher areas of, say, a room or compartment, or, in general, draw smoke from a higher location. The inlet flue 15 may be extended manually or automatically. In a further embodiment, it may be self-propelled. 30 The outlet 6 is provided at the bottom 9 of the apparatus, as can be seen in Figures 1 and 2. The outlet 6 provides an outlet for treated air at or around ground level WO 2007/113472 PCT/GB2007/001027 - 13 and, optionally, in all directions. In particular, treated air is provided radially from the outlet, that is to say, that treated air is expelled from the apparatus radially in all directions which are substantially horizontal to the 5 ground and running parallel with the ground upon which the apparatus stands. As such, the radially-expelled treated air has undergone a 900 rotation in the outlet 6 from the substantially vertical direction of filtering from the top 7 of the apparatus to the bottom 9. This is exemplified by 10 Arrows B in Figure 5A, which show the movement of treated air in all directions radially from a circular fan arrangement 10. As such, a layer of treated air is provided at or around ground level or at least below the smoke. Advantageously, positioning of the outlet at the bottom 9 of 15 the apparatus 1 provides a layer of treated air beneath the smoke, such that treated air is not directly mixed with smoke. Further advantageously, providing the treated air radially from the outlet and, therefore, providing a layer of treated air at or around ground level or at least below 20 the smoke, mixing of treated air and smoke is minimised. As a consequence of minimising mixing, visibility in the room or compartment is restored more quickly. A fan arrangement 10 is provided to draw smoke into the apparatus 1, pass the smoke through in turn each of the 25 mechanical, electrostatic and chemical filters, and expel treated air from the apparatus 1. The fan arrangement 10 is located in the region of the outlet 6, at the 'bottom 9 of the apparatus. Smoke is filtered through the one or more filters 2,3,4 in a substantially downwards direction. By 30 the phrase 'downward direction', it is meant that smoke is filtered when travelling from the top 7 of the apparatus 1 to the bottom 9 thereof. As can be seen in Figures 5A and WO 2007/113472 PCT/GB2007/001027 - 14 5B, the fan arrangement 10 is integral with the outlet 6. The integral fan arrangement 10 and outlet 6 is provided with a circular, centrifugal fan 12 having a number of fins 12A for directing treated air radially from the apparatus 5 and approximately parallel to the ground. A motor 11 is provided to drive the centrifugal fan 12. Further, the fan is located in a casing 13, which may prevent objects from being inadvertently introduced to the fan 12, and which casing provides support for the fan 12, but does not 10 restrict radial distribution of treated air. Additionally, the casing is shaped to provide an inlet 14 which sucks treated air from the chemical filter 4. As mentioned herein, the fan arrangement is provided to draw smoke into the apparatus 1 and pass the smoke through the mechanical 15 filter 2, the electrostatic filter 3 and the chemical filter 4 and then expel treated air from the apparatus 1. In order to a provide fast collection and filtering of smoke, the apparatus is arranged to be capable of filtering flow rates of smoke up to around 800 cubic metres per hour. As such, 20 pressure drop across each of the filters 2,3,4 is minimised to maintain high flow rates of smoke through the apparatus 1. The apparatus 1 is also provided with appropriate circuitry and, at least, a processor (including a memory) to 25 provide control and operation of the apparatus 1. The apparatus 1 is provided with a power source (not shown) that is separate from the apparatus 1, in the form of a power pack. However, the apparatus can also run directly from mains electricity (or equivalent) or be powered by an 30 internal battery. Preferably, the whole apparatus 1 is capable of resisting a certain amount of heat. As such, the outer WO 2007/113472 PCT/GB2007/001027 - 15 regions of the apparatus are made of metal and some internal components may be insulated. The main body of the apparatus is constructed nearly entirely of metal and is riveted together for strength, as the apparatus must be rugged and 5 capable of being moved around. For example, the apparatus can be made nearly entirely of aluminium or steal. Figure 3 shows, in particular, the chemical filter 4 removed from the apparatus 1 and the electrostatic filter 3 partially removed from the apparatus 1. As can be seen in 10 Figure 3, the filters 2,3,4 are easily removed from the apparatus 1 - in a draw-like manner - for cleaning or replacement. Further, the filters 2,3,4 can be secured in the apparatus by way of fixing means 11, in the form of screw fixers 11. 15 In use, the apparatus 1 is located in a room or compartment filled with smoke. The apparatus 1 may be permanently located in that room or compartment - if that room contains a potential hazard - or have been transported there in response to a fire. The apparatus 1 is primarily 20 for use once the fire has been extinguished. The apparatus 1 is operated to remove some or all smoke from the room or compartment and provide an atmosphere in the room or compartment of an acceptable level for further small scale cleanup to begin. This may involve ventilating 25 the room or compartment to the surrounding area - not being the atmosphere - or to the atmosphere per se. In order to clarify use of the term the 'atmosphere', this should be understood to mean outside air, for example, opening a window is ventilating a room to the atmosphere. 30 In operation, smoke from upper regions of the room or compartment is drawn into the apparatus in the region of the top 7, through the inlet 5,5', by the fan arrangement 10.

C \N~rhC A LIx9 I D)OC-10/IM2010 - 16 From the inlet 5,5', smoke is passed through the mechanical filter 2 to remove larger particles from the smoke and floating fire debris, for example, soot. The larger particles and/or floating debris are entrained in the 5 aluminium mesh, which provides removal of them from the smoke. Smoke from the mechanical filter 2 is passed through the electrostatic filter 3 to remove further smoke particles and leave, substantially, only fire gas plus, perhaps, some very small particles. As such, smoke entering the 10 electrostatic filter is substantially ionised such that a large proportion of the smoke sticks to the alternatively charged plates. The fire gas leaving the electrostatic filter 2 is finally filtered through the chemical filter where parts of the fire gas are absorbed by the carbon or 15 soda lime, providing treated air, which has most constituents of smoke removed therefrom. Treated air is then returned to the room or compartment at around floor-level, providing a layer of treated air beneath the smoke. Preferably, as little mixing as possible of treated air and 20 smoke occurs. As smoke exists in layers, it will be understood that a layer of treated air is provided in lower parts of a room or compartment. As the apparatus is operated, the size of the layer of treated air increases from lower parts of the room or compartment towards the 25 upper parts of the room or compartment, and pushes upwards on the layers of smoke above. Consequently, by collecting smoke from substantially above the apparatus and by providing a constant stream of treated air during operation at around floor level (or below the apparatus), a form of 30 convection current is provided which is intended to allow the apparatus to filter all of the smoke in the room or compartment.

C\N nhDCAl00x9 I)C- I0/Tx/2Oh10 - 17 Throughout this specification and the claims which follow, unless the context requires otherwise, the word "comprise", and variations such as "comprises" and "comprising", will be understood to imply the inclusion of a 5 stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps. The reference in this specification to any prior publication (or information derived from it), or to any 10 matter which is known, is not, and should not be taken as an acknowledgment or admission or any form of suggestion that that prior publication (or information derived from it) or known matter forms part of the common general knowledge in the field of endeavour to which this specification relates.

Claims

1. A smoke removal apparatus, capable of operating in a confined space without ventilation of the apparatus to the 5 atmosphere to provide removal of smoke from air to be treated, comprising one or more of the following filters: a mechanical filter; an electrostatic filter; and/or a chemical filter; 10 wherein the apparatus is arranged to collect smoke from a relatively higher position, pass smoke through the one or more filters, and expel treated air to a relatively lower position, wherein the apparatus is provided with an outlet arranged to provide radial distribution of treated air in 15 all directions which are substantially horizontal to the ground, so as to provide a layer of treated air beneath the smoke.

2 A smoke removal apparatus as claimed in claim 1, 20 wherein the apparatus is arranged to collect smoke from substantially above the apparatus.

3. A smoke removal apparatus as claimed in any preceding claim, wherein the apparatus is arranged to expel treated 25 air to substantially below the apparatus.

4. A smoke removal apparatus as claimed in any preceding claim, wherein the apparatus is provided with an outlet arranged to expel treated air in a direction substantially 30 perpendicular to smoke passing through the one or more filters. C \NRPonhI~I)(X'AX\ux9 1 D IOC-lIo/08/201 - 19

5. A smoke removal apparatus as claimed in any preceding claim, further comprising fan means, arranged to collect smoke, pass it through the one or more filters and expel treated air from the apparatus, wherein the fan means 5 comprises part of the outlet.

6. A smoke removal apparatus as claimed in claim 5, wherein the fan means comprises a centrifugal fan having a rotating outlet, which provides radial distribution of 10 treated air.

7. A smoke removal apparatus as claimed in any preceding claim, comprising an inlet, located at a substantially upper-region of the apparatus, further comprising an inlet 15 flue operatively connected to the inlet and suitable for providing a relatively higher inlet to the apparatus.

8. A smoke removal apparatus as claimed in claim 7, wherein the inlet flue is extendable to vary the height of 20 the inlet.

9. A smoke removal apparatus as claimed in any preceding claim, wherein the filters are arranged in compartments, each compartment individually arranged to be easily removed 25 for cleaning or replacement.

10. A smoke removal apparatus as claimed in any preceding claim, wherein the mechanical filter comprises a coarse mesh. 30

11. A smoke removal apparatus as claimed in any preceding claim, wherein the electrostatic filter comprises an C-\NR'onbNI)CC\AXI.L -9x93 LDOHC-10/u/20 - 20 arrangement of an ionising wire and alternatively charged plates.

12. A smoke removal apparatus as claimed in any preceding 5 claim, wherein the chemical filter comprises activated carbon.

13. A smoke removal apparatus as claimed in claim 12, wherein the chemical filter further comprises alkali salts 10 or acid salts, for neutralisation of acidic or basic gaseous molecules.

14. A smoke removal apparatus as claimed in any preceding claim, wherein the apparatus further comprises a portable 15 power source.

15. A method of smoke removal comprising, providing a smoke removal apparatus, capable of operating in a confined space without ventilation of the 20 apparatus to the atmosphere to provide removal of smoke from air to be treated, comprising one or more filters selected from a mechanical filter; an electrostatic filter; and/or a chemical filter; wherein smoke is collected from a relatively higher 25 position, is passed through the one or more filters and treated air is expelled to a relatively lower position, and wherein the apparatus is provided with an outlet arranged to provide radial distribution of treated air in all directions which are substantially horizontal to the ground, so as to 30 provide a layer of treated air beneath the smoke. C \N~nlD A~ox9 I DOC-l /0f201 - 21

16. A method of smoke removal as claimed in claim 15, wherein smoke is collected from substantially above the apparatus. 5

17. A method of smoke removal as claimed in any of claims 15 to 16, wherein treated air is expelled to substantially below the apparatus.

18. A method of smoke removal as claimed in any of claims 10 15 to 17, wherein the apparatus is provided with an outlet which expels treated air in a direction substantially perpendicular to smoke passing through the one or more filters. 15

19. A method of smoke removal as claimed in any of claims 15 to 18, wherein air to be treated is subjected to particulate filtration, then electrostatic filtration, then chemical filtration.

20 20. A smoke removal apparatus, or a method of smoke removal, substantially as herein described, with reference to the accompanying drawings and description.